The binding factor of enteropathogenic Escherichia coli O111:H- responsible for localized adherence (LA) on HeLa cells was investigated. Inhibition of LA by carbohydrates and lectins showed that the reactive epitope on HeLa cells contains N-acetylgalactosamine units. Treatment of bacteria with EDTA for extraction of lipopolysaccharides eliminated these polymers as binding factors. Such treatment also caused a marked increase in adhesion suggesting steric hindrance by lipopolysaccharides of the LA factor binding capacity. Immunoblotting with rabbit antibodies showed a strong reaction with two components with approximate molecular sizes of 29 and 32 kilodaltons (kDa) present in the outer membrane preparations of bacteria. Both the absorbed rabbit immune serum and the outer membrane preparation of the bacteria inhibited bacterial adhesion by 100%. Outer membrane components were isolated from an N-acetylgalactosamine-agarose column by elution with KSCN, labeled with 125I, and immunoprecipitated with absorbed rabbit hyperimmune antiserum. The only component precipitated was the protein doublet at 29 to 32 kDa corresponding to the components detected by immunoblotting. The predominant component was always the 32-kDa polypeptide. We conclude that this component of the outer membrane is the best candidate for the LA factor in enteropathogenic E. coli.
Antibodies that lyse trypomastigotes in a complement-mediated reaction are believed to be the main participants in the protection against virulent Trypanosoma cruzi. Antibodies with a specificity for alpha-galactosyl-containing determinants--generally called antiGal--were studied to determine their role in the lysis of trypomastigote forms. The titers of antiGal markedly increase in Chagas's disease. In the present study we demonstrate binding of this antibody to T. cruzi and the complement-mediated lysis of trypomastigotes by antiGal. Lysis of metacyclic trypomastigotes by whole Chagasic (Ch) serum or isolated antiGal fractions was equally inhibited by alpha- but not by beta-galactosides. Most of the lytic power of the Ch antiGal as well as of the whole Ch serum was removed by absorption on Synsorb-linked Gal alpha 1, 3Gal beta 1, 4GlcNAc followed by rabbit erythrocyte absorption. The Ch antiGal had a lower affinity for melibiose bound to agarose than for the trisaccharide linked to Synsorb, and was several times more effective in the immunolysis of trypomastigotes than the corresponding antiGal from normal human serum. Lytic antibodies were partly absorbed by Serratia marcescens but not by Escherichia coli O111. A human volunteer immunized with an S. marcescens vaccine elicited a specific antiGal response that was lytic to trypomastigotes (70% lysis). We suggest that in vivo high-affinity antiGal antibody clones, as occur in Ch patients, may significantly contribute to the destruction of the parasite, whereas low-affinity antiGal clones are much less effective in the protection against T. cruzi infection.
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